Fractures of the proximal femur at the level of the lesser trochanter (reversed and transverse fracture lines, Evans classification type II, AO classification A3 fractures) are known to have an increased risk of fixation failure. 58 patients with such a fracture were randomised to have the fracture fixed with either an intramedullary nail (220 mm Targon PF nail) or a sliding hip screw (SHS). The mean age of the patients was 82 and 11% were male. All patients were followed up for one year by a research nurse blinded to the treatment groups. Mean length of surgery was 50 minutes for the nail versus 52 minutes for the SHS. There were no differences between groups in the need for blood transfusion. Operative complications tended to be less for the nail group (1/27 versus 5/26). Mean hospital stay was 18 days for the nail group versus 29 days for those treated with the SHS. The only fracture healing complications were one case of cut-out in the SHS group and two cut-outs in the nail group, two of which required revision surgery. During follow-up those patients treated with the nail reported a tendency to lower pain scores than those treated with the SHS (p=0.04 at two months). This difference persisted even at one year from injury. Mortality and regain of mobility was similar between groups. These results indicate that for these difficult fractures types both types of fixation produce comparable outcomes.
Deciding how to allocate scarce surgical resources is a worldwide issue. These decisions are difficult when considering procedures aimed primarily at improving functional quality of life, such as lower extremity joint replacement (LEJR) surgery, and procedures perceived as life preserving which also have impacts on physical function, such as coronary artery bypass graft (CABG) surgery. Comparing functional outcomes of these two procedures may provide further evidence to guide resource allocation decisions. We compared patient-reported functional outcomes following CABG and LEJR surgery using standardised, validated outcome metrics. A retrospective review of prospectively collected pre- and post-operative health related quality of life (SF-36) measures were conducted from 105 patients undergoing elective CABG and 105 elective LEJR surgery patients. Patients were matched based on gender and age.Background
Methods
The purpose of this clinical series is to prospectively review the mid-term clinical and radiographic outcomes of the Scandinavian Total Ankle Replacement (STAR) performed at two academic Canadian University centres. Between 1998 and 2005, 111 STAR were implanted into 98 patients at two Canadian centres. Prospective clinical and radiographic follow-up was performed. Validated and non-validated outcome questionnaires consisting of the AAOS foot and ankle questionnaire, AOFAS Hindfoot score, Foot Function Index (FFI), Ankle Osteoarthritis Scale (AOS) were completed. Sixty four patients were followed with these scores prospectively and 50 retrospectively. Both groups had prospective radiographic follow-up using measures described by Hintermann Aim
Methods
To assess the efficacy of a combined orthoplastic approach to the management of severe grade III fractures of the lower limb, we looked at the functional and radiological outcome of 100 consecutive fractures from a specialist centre. A prospective analysis was performed on 100 consecutive open tibial fractures (98 patients). An early decision was made by a specialist multidisciplinary team as to whether the injured limb was reconstructable. In the reconstruction group there were 84 Gustilo grade IIIB/C injuries. Definitive skeletal stabilisation was most commonly with a circular frame (60%) or intramedullary nail (20%). The mean time to union was 26 weeks for diaphyseal fractures, 20 weeks for metaphyseal fractures and 10 weeks for ankle fractures. There was one aseptic non-union which is still undergoing treatment. The anterolateral thigh free flap was the most common soft tissue reconstruction used (42%). There were minimal surgical complications and only one free flap failure. Mean time to follow-up was 24 months. The mean limb functional score (modified enneking) was 83% of that of the normal limb and was not influenced by the site of fracture or type of fixation. The mean SF-36 score was 75 and there was a high return to employment (70%). In the primary amputation group there were 16 grade IIIB/C injuries. Mean time to follow-up was 38 months. The mean SF-36 score for the below knee amputees was 58 and there was again a high return to employment (58%). In the reconstruction group there is a 99% limb salvage rate with infection-free union to date and no delayed amputations. A higher return to functional activity/employment was achieved in the reconstruction group compared to the primary amputation group. Our results demonstrate that by using a combined orthoplastic approach in a specialist centre excellent results can be achieved for all patients presenting with severe open lower limb injuries.
Orthopaedic cobalt chromium particles and ions can induce indirect DNA damage and chromosome aberrations in human cells on the other side of a cellular barrier in tissue culture. This occurs by intercellular signalling across the barrier. We now show that the threshold for this effect depends on the metal form and the particle composition. Ionic cobalt and chromium induced single strand breaks at concentrations equivalent to those found in the blood of patients with well functioning metal on metal hip prostheses. However, they only caused double strand breaks if the chromium was present as chromium (VI), and did not induce chromosome aberrations. Nanoparticles of cobalt chromium alloy caused DNA double strand breaks and chromosome aberrations, of which the majority were tetraploidy. Ceramic nanoparticles induced only single strand breaks and/or alkaline labile sites when indirectly exposed to human fibroblasts. The assessment of reproductive risk from maternal exposure to biomaterials, especially those liberated by orthopaedic implants, is not yet possible with epidemiology. Whilst the barrier model used here differs from the in vivo situation in several respects, it may be useful as a framework to evaluate biomaterial induced damage across physiological barriers.